DOCSLIB.ORG

GEMINI VIII Fifty Years Ago, on March 16, 1966, Gemini VIII (Gemini 8) Was Launched Into Orbit Around the Earth

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
GEMINI VIII Fifty Years Ago, on March 16, 1966, Gemini VIII (Gemini 8) Was Launched Into Orbit Around the Earth AIAA AEROSPACE MICRO-LESSON Easily digestible Aerospace Principles revealed for K-12 Students and Educators. These lessons will be sent on a bi-weekly basis and allow grade-level focused learning. - AIAA STEM K-12 Committee GEMINI VIII Fifty years ago, on March 16, 1966, Gemini VIII (Gemini 8) was launched into orbit around the earth. It had a two-man crew: Neil Armstrong (later the first person to set foot upon the moon) and David Scott. Project Gemini was a series of twelve launches, ten of them manned, to develop the technology and the techniques to allow a manned mission to the moon and back. Gemini VIII was the first time a spacecraft had docked with another spacecraft in orbit; it was also the first in-orbit emergency in the American space program that endangered the lives of astronauts. G RADES K-2 During the emergency on board the Gemini 8 the ship began to spin rapidly. While they tried to correct the problem, the spinning became so bad that the astronauts almost passed out. Can you imagine how they felt? Maybe you have been on a ride at the fair or a theme park that whirls you around and around. What happens when you stop? Are you dizzy? Do you wobble a bit when you try to stand still? What causes the feeling of dizziness? Here is a simple explanation: https://www.highlightskids.com/science-questions/why- does-spinning-make-you-dizzy . Try it now; just spread your arms and twirl in circles. Now stop and try to walk in a straight line. Is it hard? Think of how difficult it would be for the astronauts to operate the controls of the spacecraft, or concentrate on what they needed to do next. Here are the directions for a fun game to play during recess or PE that illustrates how difficult it is to do things while you are dizzy: http://www.imom.com/15-backyard-game- instructions/#.VkSjQberQdU. Another problem the astronauts faced is called the Coriolis force. You may have felt this while spinning in an office chair. There you are spinning around and, when you reach for something, it feels like your arm is pulled off course. You can also feel it if you are in a spinning chair and let your arm hang down and swing forward and backward. Imagine how hard it must have been for those astronauts as their whole spacecraft rotated and they were trying to push the right control buttons! A fairly simple explanation of Coriolis force and how it relates to space travel can be found here: http://science.nasa.gov/science- news/science-at-nasa/2004/23jul_spin/. GRADES 3-5 Crew member Gordon Cooper of the Gemini 5 proposed that the mission be commemorated with a mission patch similar to the military patches worn by USAir Force pilots on their flight suits. Since that time a patch has been designed for every NASA mission. The design may include things like the names of crew members, the mission’s name and number, and images that symbolize the mission’s objectives. There are lists of the various patches here http://history.nasa.gov/mission_patches.html and here https://en.wikipedia.org/wiki/Mission_patch. For a complete list of the Gemini missions, the crew members, and images of their patches, check here https://en.wikipedia.org/wiki/Project_Gemini. If you were going on a mission in space, what do you think your goals and objectives would be? How would you represent that in a mission patch? GRADES 6-8 Project Gemini was the first attempt by the United States to work in space. Gemini spacecraft were launched in 1965 and 1966; you can find a chronology of the project here: http://history.nasa.gov/SP-4002/contents.htm Several things that Project Gemini pioneered are now commonplace: Extravehicular Activity – going outside the spacecraft to work was first done on Gemini IV. The astronauts found that without any place to stand or hold on to, trying to turn a bolt would instead turn the astronaut. Long-Duration Missions – Gemini VII lasted fourteen days; the longest manned American space mission before Gemini lasted only a day and a half. Rendezvous and Docking – The Gemini VI and Gemini VII capsules flew within a foot of each other and stayed within 300 feet of each other for about five hours. Gemini VIII, XI, and XII docked with specially-launched Agena rockets. One thing that was not in the Gemini project plan was that astronaut John Young smuggled a corned beef sandwich on board Gemini III. You can read about it here: http://news.discovery.com/space/the-case-of-the-contraband-corned-beef-sandwich.htm GRADES 9-12 Project Gemini was a stepping-stone on the way to placing people on the moon. President John Kennedy, in a speech on May 25, 1961, set the goal “before this decade is out, of landing a man on the moon and returning him safely to the earth.” At that time, the United States had placed only one person in space (Alan Shepard’s suborbital flight of May 5, three weeks earlier) and had never placed a person in orbit. The Soviet Union had placed the first satellite in orbit around the earth (Sputnik I); the Soviet Union had placed the first astronaut into orbit around the earth (Vostok I); the Soviet Union had sent the first spacecraft towards the moon (Luna I), to the moon (Luna II, which crash-landed), and around behind the moon (Luna III). President Kennedy was declaring a race to put the first person on the moon—and bring him safely home. You can find more information and a recording of President Kennedy’s speech here: http://history.nasa.gov/moondec.html For an interesting illustration of the dynamics of a spinning body, you can put a rubber band around a book (or take some other means to keep it from flying open) and toss it up in the air in front of you, making it spin about one of its axes. If you spin it about its longest axis (usually from the top of the book to the bottom of the book), it spins stably; it may wobble slightly but not by much. Similarly, if you spin it about its shortest axis (from the center of the front cover to the center of the back cover), it spins stably. If you spin it about its intermediate axis (usually from the spine to the side opposite the spine), though, the book will spin unstably; it will tumble about as it is spinning. (When the students get to college and take a course in three-dimensional dynamics, they can solve the equations of motion to demonstrate why this happens.) In the same way, the Gemini capsule was not spinning smoothly about a single axis; it was tumbling wildly in space. Coincidentally, the launch of Gemini VIII on March 16, 1966 happened on the fortieth anniversary of Robert Goddard’s first liquid-fueled rocket launch in 1926. Mr. Goddard’s rocket reached an altitude of 41 feet, flew for two seconds, and had an average speed of about 60 miles per hour. A short article on Robert Goddard can be found here: http://www.nasa.gov/missions/research/f_goddard.html .
Load more

Recommended publications
  • A Quantitative Human Spacecraft Design Evaluation Model For
    A QUANTITATIVE HUMAN SPACECRAFT DESIGN EVALUATION MODEL FOR ASSESSING CREW ACCOMMODATION AND UTILIZATION by CHRISTINE FANCHIANG B.S., Massachusetts Institute of Technology, 2007 M.S., University of Colorado Boulder, 2010 A thesis submitted to the Faculty of the Graduate School of the University of Colorado in partial fulfillment of the requirement for the degree of Doctor of Philosophy Department of Aerospace Engineering Sciences 2017 i This thesis entitled: A Quantitative Human Spacecraft Design Evaluation Model for Assessing Crew Accommodation and Utilization written by Christine Fanchiang has been approved for the Department of Aerospace Engineering Sciences Dr. David M. Klaus Dr. Jessica J. Marquez Dr. Nisar R. Ahmed Dr. Daniel J. Szafir Dr. Jennifer A. Mindock Dr. James A. Nabity Date: 13 March 2017 The final copy of this thesis has been examined by the signatories, and we find that both the content and the form meet acceptable presentation standards of scholarly work in the above mentioned discipline. ii Fanchiang, Christine (Ph.D., Aerospace Engineering Sciences) A Quantitative Human Spacecraft Design Evaluation Model for Assessing Crew Accommodation and Utilization Thesis directed by Professor David M. Klaus Crew performance, including both accommodation and utilization factors, is an integral part of every human spaceflight mission from commercial space tourism, to the demanding journey to Mars and beyond. Spacecraft were historically built by engineers and technologists trying to adapt the vehicle into cutting edge rocketry with the assumption that the astronauts could be trained and will adapt to the design. By and large, that is still the current state of the art. It is recognized, however, that poor human-machine design integration can lead to catastrophic and deadly mishaps.
    [Show full text]
  • Apollo 8 (AS-503) Mission Operation Report
    Pre- Launch Mission Operation Report No. M-932-68-08 MEMORANDUM To: A/Acting Administrator /7/4-7dY& 5/ From: MA/Apollo Program Director Subject: Apollo 8 Mission (AS-503) No earlier than 21 December 1968, we plan to launch the next Apollo/Saturn V mission, Apollo 8. This will be the first manned Saturn V flight, the second flight of a manned Apollo spacecraft and the first manned Apollo flight to the lunar vicinity. The purpose of this mission is to demonstrate: crew/space vehicle/mission support facilities performance during a manned Saturn V mission with CSM, and performance of nominal and selected backup lunar orbital mission activities including translunar injection, CSM navigation, communications and midcourse corrections, and CSM consumables assessment and passive thermal control. Mission duration is planned for approximately six days and three hours. The launch will be the third Saturn V from.Launch Complex 39 at Kennedy Space Center. The launch window opens at 7~51 EST 21 December and closes for December at 18:20 EST 27 December, Daily windows during this period vary in duration from 4-l/2 hours to approximately l-1/2 hours. The nominal mission will comprise: ascent to parking orbit; translunar injection by the S-IVB; CSM separation from S-IVB; translunar coast with required midcourse corrections; lunar orbit insertion and circularization; up to 10 lunar orbits; transearth injection, transearth coast and required midcourse corrections; reentry and splashdown. Recovery will be in the Pacific recovery area with exact location dependent on launch conditions. Apollo Program Director APPROVAL: /associate Administrator for / Manned Space Flight l_l ,.
    [Show full text]
  • Information Summaries
    TIROS 8 12/21/63 Delta-22 TIROS-H (A-53) 17B S National Aeronautics and TIROS 9 1/22/65 Delta-28 TIROS-I (A-54) 17A S Space Administration TIROS Operational 2TIROS 10 7/1/65 Delta-32 OT-1 17B S John F. Kennedy Space Center 2ESSA 1 2/3/66 Delta-36 OT-3 (TOS) 17A S Information Summaries 2 2 ESSA 2 2/28/66 Delta-37 OT-2 (TOS) 17B S 2ESSA 3 10/2/66 2Delta-41 TOS-A 1SLC-2E S PMS 031 (KSC) OSO (Orbiting Solar Observatories) Lunar and Planetary 2ESSA 4 1/26/67 2Delta-45 TOS-B 1SLC-2E S June 1999 OSO 1 3/7/62 Delta-8 OSO-A (S-16) 17A S 2ESSA 5 4/20/67 2Delta-48 TOS-C 1SLC-2E S OSO 2 2/3/65 Delta-29 OSO-B2 (S-17) 17B S Mission Launch Launch Payload Launch 2ESSA 6 11/10/67 2Delta-54 TOS-D 1SLC-2E S OSO 8/25/65 Delta-33 OSO-C 17B U Name Date Vehicle Code Pad Results 2ESSA 7 8/16/68 2Delta-58 TOS-E 1SLC-2E S OSO 3 3/8/67 Delta-46 OSO-E1 17A S 2ESSA 8 12/15/68 2Delta-62 TOS-F 1SLC-2E S OSO 4 10/18/67 Delta-53 OSO-D 17B S PIONEER (Lunar) 2ESSA 9 2/26/69 2Delta-67 TOS-G 17B S OSO 5 1/22/69 Delta-64 OSO-F 17B S Pioneer 1 10/11/58 Thor-Able-1 –– 17A U Major NASA 2 1 OSO 6/PAC 8/9/69 Delta-72 OSO-G/PAC 17A S Pioneer 2 11/8/58 Thor-Able-2 –– 17A U IMPROVED TIROS OPERATIONAL 2 1 OSO 7/TETR 3 9/29/71 Delta-85 OSO-H/TETR-D 17A S Pioneer 3 12/6/58 Juno II AM-11 –– 5 U 3ITOS 1/OSCAR 5 1/23/70 2Delta-76 1TIROS-M/OSCAR 1SLC-2W S 2 OSO 8 6/21/75 Delta-112 OSO-1 17B S Pioneer 4 3/3/59 Juno II AM-14 –– 5 S 3NOAA 1 12/11/70 2Delta-81 ITOS-A 1SLC-2W S Launches Pioneer 11/26/59 Atlas-Able-1 –– 14 U 3ITOS 10/21/71 2Delta-86 ITOS-B 1SLC-2E U OGO (Orbiting Geophysical
    [Show full text]
  • The Flight Plan
    M A R C H 2 0 2 1 THE FLIGHT PLAN The Newsletter of AIAA Albuquerque Section The American Institute of Aeronautics and Astronautics AIAA ALBUQUERQUE MARCH 2021 SECTION MEETING: MAKING A DIFFERENCE A T M A C H 2 . Presenter. Lt. Col. Tucker Hamilton Organization USAF F-35 Developmental Test Director of Operations INSIDE THIS ISSUE: Abstract I humbly present my flying experiences through SECTION CALENDAR 2 pictures and videos of what it takes and what it is like to be an Experimental Fighter Test Pilot. My personal stories include NATIONAL AIAA EVENTS 2 major life-threatening aircraft accidents, close saves, combat SPACE NUCLEAR PROPULSION REPORT 3 flying revelations, serendipitous opportunities testing first of its kind technology, flying over 30 aircraft from a zeppelin to a ALBUQUERQUE DECEMBER MEETING 5 MiG-15 to an A-10, and managing the Joint Strike Fighter De- velopmental Test program for all three services. Through ALBUQUERQUE JANUARY MEETING 6 these experiences you will learn not just what a Test Pilot does, but also gain encour- ALBUQUERQUE FEBRUARY MEETING 7 agement through my lessons learned on how to make a difference in your local com- munities…did I mention cool flight test videos! CALL FOR SCIENCE FAIR JUDGES 9 Lt Col Tucker "Cinco" Hamilton started his Air Force career as an CALL FOR SCHOLARSHIP APPLICATIONS 10 operational F-15C pilot. He supported multiple Red Flag Exercises and real world Operation Noble Eagle missions where he protect- NEW AIAA HIGH SCHOOL MEMBERSHIPS 10 ed the President of the United States; at times escorting Air Force One.
    [Show full text]
  • John F. Kennedy Space Center
    1 . :- /G .. .. '-1 ,.. 1- & 5 .\"T!-! LJ~,.", - -,-,c JOHN F. KENNEDY ', , .,,. ,- r-/ ;7 7,-,- ;\-, - [J'.?:? ,t:!, ;+$, , , , 1-1-,> .irI,,,,r I ! - ? /;i?(. ,7! ; ., -, -?-I ,:-. ... 8 -, , .. '',:I> !r,5, SPACE CENTER , , .>. r-, - -- Tp:c:,r, ,!- ' :u kc - - &te -- - 12rr!2L,D //I, ,Jp - - -- - - _ Lb:, N(, A St~mmaryof MAJOR NASA LAUNCHINGS Eastern Test Range Western Test Range (ETR) (WTR) October 1, 1958 - Septeniber 30, 1968 Historical and Library Services Branch John F. Kennedy Space Center "ational Aeronautics and Space Administration l<ennecly Space Center, Florida October 1968 GP 381 September 30, 1968 (Rev. January 27, 1969) SATCIEN S.I!STC)RY DCCCIivlENT University uf A!;b:,rno Rr=-?rrh Zn~tituta Histcry of Sciecce & Technc;oGy Group ERR4TA SHEET GP 381, "A Strmmary of Major MSA Zaunchings, Eastern Test Range and Western Test Range,'" dated September 30, 1968, was considered to be accurate ag of the date of publication. Hmever, additianal research has brought to light new informetion on the official mission designations for Project Apollo. Therefore, in the interest of accuracy it was believed necessary ta issue revfsed pages, rather than wait until the next complete revision of the publiatlion to correct the errors. Holders of copies of thia brochure ate requested to remove and destroy the existing pages 81, 82, 83, and 84, and insert the attached revised pages 81, 82, 83, 84, 8U, and 84B in theh place. William A. Lackyer, 3r. PROJECT MOLL0 (FLIGHTS AND TESTS) (continued) Launch NASA Name -Date Vehicle -Code Sitelpad Remarks/Results ORBITAL (lnaMANNED) 5 Jul 66 Uprated SA-203 ETR Unmanned flight to test launch vehicle Saturn 1 3 7B second (S-IVB) stage and instrment (IU) , which reflected Saturn V con- figuration.
    [Show full text]
  • GEMINI MANNED FLIGHT PROGRAM to DATE by LT
    GEMINI MANNED FLIGHT PROGRAM TO DATE bY LT. COL. JAMES A. McDIVITT, USAF (M) Astronaut - NASA/MSC NEIL A. ARMSTRONG Astronaut - NASA/MSC SHEPARD: We'd like to talk during this part of the presentation aboui the Gemini program and tu give you a current status report on the last three flights which we have completed this year. A few days ago, a Marine colleague of mine and I were having a discussion in the control center at Houston. This Marine colleague is now a soft drink salesman but he happened to be there for the occasion of the receni eight-day mission which we completed. We were discussing a flight which occurred in May of 1961. The flight plan indicated so many seconds of control and rate command, SO many seconds of control in manual, so many seconds to look out the window, so many seconds for this, so many seconds for that, a completely chalked full flight plan. In the meantime on the control center floor discussion was going on between the ground and the pilots and they were saying "well if we don't get this thing done Tuesday we can do it Thursday." We have two gentlemen here to present the last part of this session for you. I could spend a great deal of time introducing both of them. They both have wide experience, varied backgrounds, with emphasis of course in the aero- space and aeronautical professions. They both I think are fairly well known to you so I won't take too much time in enumerating the many accomplishments which they have achieved to date.
    [Show full text]
  • Project Gemini: America in Space Series Ebook
    PROJECT GEMINI: AMERICA IN SPACE SERIES PDF, EPUB, EBOOK Eugen Reichl | 144 pages | 28 Mar 2016 | Schiffer Publishing Ltd | 9780764350702 | English | Atglen, United States Project Gemini: America in Space Series PDF Book A-4G Skyhawk. This photo was taken of the two pilots in the spacecraft simulator at the McDonnell plant in St. This program was the turning point in the space race with the USSR; from then on the Americans took the lead. Flights lasting two weeks, into the Van Allen Belt, the first extravehicular activities, rendezvous maneuvers and docking with other spacecraft—all of this was achieved by Gemini, paving the way for the more demanding moon landing program. The channel of the intracoastal waterway can be seen near the bottom center of the image. See all 5 - All listings for this product. McDonnell later sought to extend the Gemini program by proposing a derivative which could be used to fly a cislunar mission and even achieve a crewed lunar landing earlier and at less cost than Apollo, but these proposals were rejected by NASA. Hamilton Crawford's It was not all success, however. President Lyndon B. Like almost every significant undertaking, Project Gemini also had its dramas and tragedies. These were followed by ten flights with crews in and Any condition Any condition. First space rendezvous accomplished, station- keeping for over five hours at distances from 1 to feet 0. This mission was flown by the backup crew. Gemini was the first astronaut-carrying spacecraft to include an onboard computer, the Gemini Guidance Computer , to facilitate management and control of mission maneuvers.
    [Show full text]
  • NASA Symbols and Flags in the US Manned Space Program
    SEPTEMBER-DECEMBER 2007 #230 THE FLAG BULLETIN THE INTERNATIONAL JOURNAL OF VEXILLOLOGY www.flagresearchcenter.com 225 [email protected] THE FLAG BULLETIN THE INTERNATIONAL JOURNAL OF VEXILLOLOGY September-December 2007 No. 230 Volume XLVI, Nos. 5-6 FLAGS IN SPACE: NASA SYMBOLS AND FLAGS IN THE U.S. MANNED SPACE PROGRAM Anne M. Platoff 143-221 COVER PICTURES 222 INDEX 223-224 The Flag Bulletin is officially recognized by the International Federation of Vexillological Associations for the publication of scholarly articles relating to vexillology Art layout for this issue by Terri Malgieri Funding for addition of color pages and binding of this combined issue was provided by the University of California, Santa Barbara Library and by the University of California Research Grants for Librarians Program. The Flag Bulletin at the time of publication was behind schedule and therefore the references in the article to dates after December 2007 reflect events that occurred after that date but before the publication of this issue in 2010. © Copyright 2007 by the Flag Research Center; all rights reserved. Postmaster: Send address changes to THE FLAG BULLETIN, 3 Edgehill Rd., Winchester, Mass. 01890 U.S.A. THE FLAG BULLETIN (ISSN 0015-3370) is published bimonthly; the annual subscription rate is $68.00. Periodicals postage paid at Winchester. www.flagresearchcenter.com www.flagresearchcenter.com 141 [email protected] ANNE M. PLATOFF (Annie) is a librarian at the University of Cali- fornia, Santa Barbara Library. From 1989-1996 she was a contrac- tor employee at NASA’s Johnson Space Center. During this time she worked as an Information Specialist for the New Initiatives Of- fice and the Exploration Programs Office, and later as a Policy Ana- lyst for the Public Affairs Office.
    [Show full text]
  • Human Spaceflight. Activities for the Primary Student. Aerospace Education Services Project
    DOCUMENT RESUME ED 288 714 SE 048 726 AUTHOR Hartsfield, John W.; Hartsfield, Kendra J. TITLE Human Spaceflight. Activities for the Primary Student. Aerospace Education Services Project. INSTITUTION National Aeronautics and Space Administration, Cleveland, Ohio. Lewis Research Center. PUB DATE Oct 85 NOTE 126p. PUB TYPE Guides - Classroom Use - Materials (For Learner) (051) EDRS PRICE MF01/PC06 Plus Postage. DESCRIPTORS *Aerospace Education; Aerospace Technology; Educational Games; Elementary Education; *Elementary School Science; 'Science Activities; Science and Society; Science Education; *Science History; *Science Instruction; *Space Exploration; Space Sciences IDENTIFIERS *Space Travel ABSTRACT Since its beginning, the space program has caught the attention of young people. This space science activity booklet was designed to provide information and learning activities for students in elementary grades. It contains chapters on:(1) primitive beliefs about flight; (2) early fantasies of flight; (3) the United States human spaceflight programs; (4) a history of human spaceflight activity; (5) life support systems for the astronaut; (6) food for human spaceflight; (7) clothing for spaceflight and activity; (8) warte management systems; (9) a human space flight le;g; and (10) addition 1 activities and pictures. Also included is a bibliography of books, other publications and films, and the answers to the three word puzzles appearing in the booklet. (TW) *********************************************************************** * Reproductions supplied by EDRS are the best that can be made * * from the original document. * *********************************************************************** HUMAN SPACEFLIGHT U.S DEPARTMENT OF EDUCATION Office of Educational Research and Improvement EDUCATIONAL RESOURCES INFORMATION Activities CENTER (ERIC) This document has been reproduced as mewed from the person or organization originating it Minor changes have been made to norm.
    [Show full text]
  • Reading Circle: the First Mission to the Moon
    Reading Circle: The First Mission to the Moon Apollo 11 was the spaceflight that landed the first humans on Earth’s Moon on July 20, 1969. The mission, carried out by the United States, Is considered a maJor accomplishment in the history of exploration. Page 2 Launched from Florida on July 16, the fifth manned mission, and the third lunar mission of NASA’s Apollo program, was crewed by Commander Neil Armstrong, Command Module Pilot Michael Pilot Edwin “Buzz” Aldrin, Jr. On July 20, Armstrong and Aldrin landed in the Sea of Tranquility and on July 21 became the first humans to walk on the Moon. Their landing craft, Eagle, spent 21hours and 31 minutes on Page 3 the lunar surface while Collins orbited above in the command ship Columbia. The three astronauts returned to Earth with 47.5 pounds of lunar rocks and landed in the Pacific Ocean on July 24. Apollo 11 fulfilled U.S President John F. Kennedy’s goal of reaching the Moon before the Soviet Union by the end of the 1960s. Five additional Apollo missions landed on the Moon from 1969 to 1972. Page 4 NEIL ARMSTRONG Neil Alden Armstrong, born August 5, 1930 is an American aviator and former Astronaut, test pilot, aerospace engineer, university professor, and United States Naval Aviator. He was the first person to set foot on the Moon. Before becoming an astronaut, Armstrong was in the United States Navy and served in the Korean War. After the war, he served as a test pilot at the National Advisory Committee Page 5 for Aeronautics (NACA) High- Speed Flight Station, now known as the Dryden Flight Research Center, where he flew over 900 flights in a variety of aircraft.
    [Show full text]
  • 19690028505.Pdf
    This bibliography was prepared by the NASA Scientific and Technical Information Facility : operated for the National Aeronautics and Space Administration by Informatics TISCO. E L HY A selection of annotated references to un- classified reports and journal articles that were introduced into the NASA Scientific and Technical ~nformat~onSystem during ugust, 1969. Scientific and Technical Information Division NATIONAL AERONAUTIC§ AND §PACE ADMINISTRATION WASHINGTON, D.C. SE PTEMBE R 1969 This document is available from the Clearinghouse for Federal Scientific and Technical Information (CFSTI), Springfield, Virginia, 221 51, for $3.00. INTRODUCTION Aerospace Medicine and Biology is a continuing bibliography which, by means of peri- odic supplements, serves as a current abstracting and announcement medium for references on this subject. The publication is compiled through the cooperative efforts of the Anierican Institute of Aeronautics and Astronautics (AIAA) and NASA Scientific and Technical Infor- mation Facility. It assembles, within the covers of a single bibliographic announcement, groups of references that were.formerly announced in separatejournals, and provides a con- venient compilation for medical and biological scientists. Additional background details for this publication can be found in the first issue, NASA SP-7011,which was published in July, 1964. Supplements are identified by the same number followed by two additional digits in parentheses. In its subject coverage, Aerospace Medicine and Biology concentrates on the biological, physiological, psychological, and environmental effecu to which man is subjected during and following simulated or actual flight in the earth’s atmosphere or in interplanetary space. References describing similar effects on biological organisms of lower order are ald in- cluded.
    [Show full text]
  • Classification Framework for Free Space Optical Communication
    1 Classification Framework for Free Space Optical Communication Links and Systems Abdelbaset S. Hamza, Member, IEEE, Jitender S. Deogun, Member, IEEE, Dennis R. Alexander Abstract—Free Space Optical (FSO) communication technol- performance-sensitive. The IoT market is expected to grow ogy, also known as Optical Wireless Communications (OWC), has from 9.1 billion devices and objects connected to the In- regained a great interest over the last few years. In some cases, ternet in 2013 to 28.1 billion by 2020 [1], that is more FSO is seen as an alternative to existing technologies, such as radio frequency. In other cases, FSO is considered as a strong than three times the global population expected by 2020. candidate to complement and integrate with next-generation As such applications and systems rapidly move closer to technologies, such as 5G wireless networks. Accordingly, FSO end users, wireless communication systems, are the favored technology is being widely deployed in various indoor (e.g., data communication technologies as they allow for user mobility. centers), terrestrial (e.g., mobile networks), space (e.g., inter- Moreover, wireless technologies avoid most of the inherent satellite and deep space communication), and underwater systems (e.g., underwater sensing). As the application portfolio of FSO complexity that wired technologies suffer from, such as, long technology grows, so does the need for a clear classification for setup time, right of the way for digging, and the sunk cost once FSO link configurations. Most existing surveys and classifications the cables are laid [2]. It is expected that two-thirds of total are single-level classifications, and thus not inclusive enough to IP traffic by 2020 will be generated by wireless and mobile accommodate recent and emerging changes and developments of devices [3].
    [Show full text]